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BbarAnalysis.h
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BbarAnalysis.h
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// -*- C++ -*-
#ifndef HERWIG_BbarAnalysis_H
#define HERWIG_BbarAnalysis_H
//
// This is the declaration of the BbarAnalysis class.
//
#include "ThePEG/Repository/CurrentGenerator.h"
#include "ThePEG/Repository/EventGenerator.h"
#include "ThePEG/Handlers/AnalysisHandler.h"
#include "BbarAnalysis.fh"
#include "Herwig++/Utilities/Histogram.h"
namespace Herwig {
using namespace ThePEG;
/**
* Here is the documentation of the BbarAnalysis class.
*
* @see \ref BbarAnalysisInterfaces "The interfaces"
* defined for BbarAnalysis.
*/
class BbarAnalysis: public AnalysisHandler {
public:
/** @name Standard constructors and destructors. */
//@{
/**
* The default constructor.
*/
inline BbarAnalysis();
/**
* The copy constructor.
*/
inline BbarAnalysis(const BbarAnalysis &);
/**
* The destructor.
*/
virtual ~BbarAnalysis();
//@}
public:
/** @name Virtual functions required by the AnalysisHandler class. */
//@{
/**
* Analyze a given Event. Note that a fully generated event
* may be presented several times, if it has been manipulated in
* between. The default version of this function will call transform
* to make a lorentz transformation of the whole event, then extract
* all final state particles and call analyze(tPVector) of this
* analysis object and those of all associated analysis objects. The
* default version will not, however, do anything on events which
* have not been fully generated, or have been manipulated in any
* way.
* @param event pointer to the Event to be analyzed.
* @param ieve the event number.
* @param loop the number of times this event has been presented.
* If negative the event is now fully generated.
* @param state a number different from zero if the event has been
* manipulated in some way since it was last presented.
*/
virtual void analyze(tEventPtr event, long ieve, int loop, int state);
/**
* Transform the event to the desired Lorentz frame and return the
* corresponding LorentzRotation.
* @param event a pointer to the Event to be transformed.
* @return the LorentzRotation used in the transformation.
*/
virtual LorentzRotation transform(tEventPtr event) const;
/**
* Analyze the given vector of particles. The default version calls
* analyze(tPPtr) for each of the particles.
* @param particles the vector of pointers to particles to be analyzed
*/
virtual void analyze(const tPVector & particles);
/**
* Analyze the given particle.
* @param particle pointer to the particle to be analyzed.
*/
virtual void analyze(tPPtr particle);
//@}
public:
/** @name Functions used by the persistent I/O system. */
//@{
/**
* Function used to write out object persistently.
* @param os the persistent output stream written to.
*/
void persistentOutput(PersistentOStream & os) const;
/**
* Function used to read in object persistently.
* @param is the persistent input stream read from.
* @param version the version number of the object when written.
*/
void persistentInput(PersistentIStream & is, int version);
//@}
/**
* The standard Init function used to initialize the interfaces.
* Called exactly once for each class by the class description system
* before the main function starts or
* when this class is dynamically loaded.
*/
static void Init();
/**
* Finalize this object. Called in the run phase just after a
* run has ended. Used eg. to write out statistics.
*/
virtual void dofinish();
protected:
/**
* Function to return a specific boost to the rest frame of the
* leptons to histogram the polar angles in this frame. This is
* verbatim c++ translation of mcfm/src/Singletop/boostx.f.
*/
Lorentz5Momentum boostx(Lorentz5Momentum p_in, Lorentz5Momentum pt,
Lorentz5Momentum ptt);
/** @name Clone Methods. */
//@{
/**
* Make a simple clone of this object.
* @return a pointer to the new object.
*/
inline virtual IBPtr clone() const;
/** Make a clone of this object, possibly modifying the cloned object
* to make it sane.
* @return a pointer to the new object.
*/
inline virtual IBPtr fullclone() const;
//@}
// If needed, insert declarations of virtual function defined in the
// InterfacedBase class here (using ThePEG-interfaced-decl in Emacs).
private:
/**
* The static object used to initialize the description of this class.
* Indicates that this is a concrete class with persistent data.
*/
static ClassDescription<BbarAnalysis> initBbarAnalysis;
/**
* The assignment operator is private and must never be called.
* In fact, it should not even be implemented.
*/
BbarAnalysis & operator=(const BbarAnalysis &);
};
}
#include "ThePEG/Utilities/ClassTraits.h"
namespace ThePEG {
/** @cond TRAITSPECIALIZATIONS */
/** This template specialization informs ThePEG about the
* base classes of BbarAnalysis. */
template <>
struct BaseClassTrait<Herwig::BbarAnalysis,1> {
/** Typedef of the first base class of BbarAnalysis. */
typedef AnalysisHandler NthBase;
};
/** This template specialization informs ThePEG about the name of
* the BbarAnalysis class and the shared object where it is defined. */
template <>
struct ClassTraits<Herwig::BbarAnalysis>
: public ClassTraitsBase<Herwig::BbarAnalysis> {
/** Return a platform-independent class name */
static string className() { return "Herwig::BbarAnalysis"; }
/**
* The name of a file containing the dynamic library where the class
* BbarAnalysis is implemented. It may also include several, space-separated,
* libraries if the class BbarAnalysis depends on other classes (base classes
* excepted). In this case the listed libraries will be dynamically
* linked in the order they are specified.
*/
static string library() { return "HwBbarAnalysis.so"; }
};
/** @endcond */
}
#include "BbarAnalysis.icc"
#endif /* HERWIG_BbarAnalysis_H */

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